武器型号费用参数模型的数据处理

针对武器型号费用存在多重共线性及出现异常值的问题，讨论了武器型号费用参数模型的数据处理方法，采用岭回归法处理数据的多重共线性，采用库克距离测度法来识别异常值，并给出了应用实例。     

地形基准数据库建立技术的探讨

简要介绍了地形基准数据库在地形辅助导航系统（ＴＡＮ系统）中的重要作用，并且给出了地形基准数据库的基本概念和一般的建立方法。最后讨论了一种较为适用、技术可行且方法简便的地形基准数据库的建立技术及其数据库形式和精确度。     

以相对偏差平方和为指标函数的最小二乘法

就测量中最小二乘法用于静态模型估计的问题,分析了传统最小二乘法在某些实验条件下应用的不合理现象,提出以相对偏差平方和为指标函数的最小二乘法。简记LSR法。给出了该方法的实用公式,分析了数学特征并证明在所给实验条件下具有无偏性、一致性,有效性.给出了用该方法拟合电位差计静态特性方程的例子。证明该方法在测量工作中是有实际意义的。     

一种新型通用经纬仪检定装置设计

新型通用经纬仪检定装置针对平行光管结构进行了重新优化设计,具有提供瞄准目标、光电自准直和图像采集及处理三大功能.基于图像采集与处理的关键技术,通过CMOS相机光学成像系统实现分划板图像采集,利用图像处理软件解算出特征图像的中心位置,得到被测经纬仪光轴与目标光管光轴的夹角或者自准直的失准值,最终达到用图像识别和软件处理取...     

一种正交跳频信号动态分选方法

针对复杂电磁环境下正交跳频信号分选时效不高问题,提出了一种正交跳频信号动态分选方法。首先基于滑动窗口的数据流模型,采用构造型神经网络对跳频信号频域数据和方位信息动态聚类,减轻噪声等因素影响,解决方位信息和幅度关联模糊性的问题;再在相应的覆盖簇内运用时频关联方法,实现正交跳频信号的动态分选,实验结果表明该方法是有效的。
     

遥感卫星高速数传信息流设计

随着卫星遥感技术水平的提高,遥感数据的类型和数据量快速增加。为适应多类型、高速率遥感数据传输的复杂需求,对数传信息流进行了顶层设计,定义了数传与遥感系统数据接口以及数传帧格式,对遥感数据传输所需码速率进行了分类计算,为设计固定的下行数传码速率提供了依据。进而针对不同类型的遥感数据提出了基于分组优先级虚拟信道动态调度策略的数传信息流设计方案,确保不同类型遥感数据的传输满足不同的应用需求。对高速遥感数据确保满足较低的缓存容量需求,对低速遥感数据确保满足实时性传输需求。采用动态仿真技术对数传信息流设计方案进行了试验验证。设计方案可为后续新一代遥感卫星数传系统设计提供参考。     

激光成像系统实验研究

为解决激光脚点（laser footprint）在光学图像中的定位问题,建立分析模型,构建了集成激光测距机和CCD摄像机的实验室激光成像系统;通过实验,对采集的数据进行了图像配准和融合,反演出被测目标三维图像,包含了被测目标高程与灰度信息。     

Heat storage and electricity generation in the Moon during the lunar night

One of the biggest challenges of the exploration of the Moon is the survival of the crew and the lunar assets during the lunar night. The environmental conditions on the lunar surface and its cycle, with long periods of darkness, make any long mission in need of specific amounts of heat and electricity to be successful. We have analyzed two different systems to produce heat and electricity on the Moon's surface. The first system consists of Thermal Wadis, sources of thermal power that can be used to supply heat to protect the exploration systems from the extreme cold during periods of darkness. Previous results showed that Wadis can supply enough heat to keep lunar devices such as rovers above their minimum operating temperature (approximately 243 K). The second system studied here is the Thermal Energy Storage (TES), which is able to run a heat engine during the lunar night to produce electricity. When the Sun is shining on the Moon's surface, the system can run the engine directly using the solar power and simultaneously heat a thermal mass. This thermal mass is used as a high temperature source to run the heat engine during the night. We present analytical and numerical calculations for the determination of an appropriate thermal mass for the TES system.     

An analysis and enhanced proposal of atmospheric boundary layer wind modelling techniques for automation of air traffic management

The air traffic management automation imposes stringent requirements on the weather models, in such a way that they should be able to provide reliable short-time forecasts in digital formats in almost real time. The atmospheric boundary layer is one of the regions where aircraft operation and coordination are critical and therefore atmospheric model performance is also vital. This paper presents conventional and innovative techniques to improve the accuracy in the forecasting of winds in the lower atmospheric layer, proposing mechanisms to develop better models including deterministic and stochastic simulations. Accuracy is improved by optimizing the grid, assimilating observations in cycling simulations and managing a number of ensemble members. An operation-driven post-processing stage helps to incorporate detailed terrain definitions and real-time observations without re-running the model. The improvements are checked against mesoscale weather simulations at different scales and a dedicated flight campaign. The results show good performance of the model without sensitively increasing the required throughput.     

降雨条件下翼型的气动特性

采用计算流体力学方法对降雨条件下翼型的气动特性进行了研究.通过求解定常可压的Navier-Stokes方程来计算流场,采用拉格朗日法对流场中的雨滴轨迹进行了模拟跟踪,得到了翼型表面的雨滴收集率;建立了水膜层数学模型,并假定水膜层沿着翼型表面的法向方向增长,预测了降雨引起的翼型外形的变化,并得到了水膜层表面的粗糙度高度;采用k-ωSST(shear-stress transport)两方程湍流模型结合增强的壁面函数,研究了降雨对翼型气动特性的影响.结果表明,在低迎角范围内,降雨对翼型的升力系数和阻力系数影响很小;当达到失速迎角后,降雨会引起上翼面边界层气流的提前分离,造成翼型气动性能的严重损失.